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Claims  |
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I claim:
1. In a vehicle having a floor and a removable unitary seat member
including a cushion portion and a back portion mounted on the rear edge of
said cushion portion, a pair of seat risers, each said seat riser
comprising:
a generally box shaped support structure being pivotally attached to said
floor enabling said support structure to rotate between a generally
concealed horizontal position and a generally vertical position, said
support structure also having one wall corresponding to and being flush
with said floor of said vehicle when in said horizontal position;
means for locking said support structure in said vertical position; and
means on said support structure for engaging said removable seat when said
support structure is in said vertical position.
2. A seat riser as set forth in claim 1 wherein said locking means includes
a locking pin, a biasing member, a portion of said floor defining a
receiving hole, said biasing member urging insertion of said locking pin
into said receiving hole, and means for disengaging said locking pin from
said receiving hole.
3. A seat riser as set forth in claim 2 wherein said disengagement means
includes a handle extending radially from said locking pin, a portion
defining a generally hooked shaped slot, said slot for receiving and
maintaining said handle in a disengaged position while said support
structure is in said horizontal position.
4. A seat riser as set forth in claim 1 wherein said engagement means
includes a retaining member and a biasing member.
5. A seat riser as set forth in claim 4 wherein said biasing member is a
spring, one end of said spring being attached to said support structure
and an opposite end being attached to said member, said retaining spring
biasing said retaining member into engagement with a corresponding
retaining element of said removable seat.
6. A seat riser as set forth in claim 4 wherein said engagement means
further includes a disengagement handle and a stop pin, said disengagement
handle enabling the disengagement of said retaining member from a
corresponding retaining element, said stop pin limiting the movement of
said retaining member when said retaining member is not engaged with a
corresponding retaining element.
7. A concealable seat riser for integration in the floor of an automotive
vehicle having a removable seat, said seat riser comprising:
a generally shoe box shaped housing, said housing being rotatably attached
to said floor to allow said housing to rotate from a generally vertical
position to a generally horizontal position, said housing being concealed
inside of said floor and having one wall flush with said floor when in
said horizontal position;
means for locking said housing in said vertical position, said locking
means being attached exteriorly to a lower wall of said housing when said
housing is in said vertical position; and
means for engaging said removable seat, said engagement means being
attached to an interior surface of said flush wall of said housing.
8. A concealable seat riser as set forth in claim 7 wherein said locking
means includes a horizontally mounted locking pin, a portion of said floor
defining a receiving hole, a biasing member for urging insertion of said
locking pin into said receiving hole, a portion of said lower wall of said
housing defining a generally checkmark shaped slot, said handle extending
internally of said housing through said checkmark shaped slot, said
locking pin having a radially extending handle, said checkmark shaped slot
enabling the continual disengagement of said locking pin from said
receiving hole while said housing is in said horizontal position.
9. A concealable seat riser as set forth in claim 7 wherein said engagement
means includes a generally horizontal engagement member, said engagement
member having at least one upwardly extending vertical arm, said arm also
extending laterally, said arm terminating in a generally horizontal finger
portion, said finger portion having a downwardly sloping leading edge for
encouraging engagement of said arm with a corresponding engagement element
of said removable seat, said engagement means also including a retaining
spring, a spring housing, said retaining spring being attached at one end
to said engagement member and being attached at an opposite end to said
spring housing, said retaining spring biasing said engagement member into
engagement with said corresponding engagement element of said removable
seat, said engagement member also having a laterally extending handle,
said handle enabling said engagement member to be slidably moved against
said bias of said retaining spring.
10. A concealable seat riser as set forth in claim 9 wherein said
engagement member has two upwardly extending vertical arms, said arms
extending from opposite ends of said engagement member.
11. In the floor of a automotive vehicle having at least one removable
seat, a seat riser comprising:
a generally rectangular housing, said housing being pivotally attached and
mounted in said floor, said housing also being rotatable about a pivotal
axis from a generally horizontal position to a generally vertical
position, said housing rotating transversely to a longitudinal axis of
said vehicle, said housing being concealed and flush with said floor of
said vehicle when in said horizontal position, said housing having one
open wall, said open wall being downward when said housing is in said
horizontal position, said housing also having portions defining guide
slots, said guide slots being located in a top wall of said housing when
said housing is in said vertical position;
means for locking said housing in said vertical position, said locking
means including a generally horizontal locking pin, a spring member, a
portion of said floor defining a receiving hole, said spring member
biasing said locking pin toward insertion into said receiving hole, a
locking handle, a portion of said housing defining a locking slot, said
handle and said locking slot and said spring member coacting to cause
continual disengagement of said locking pin from said receiving hole when
said housing is in said horizontal position; and
means for retaining said removable seat, said retaining means including a
generally horizontal retaining member, said retaining member having two
arms extending vertically upward from opposite ends thereof, said arms
ending in generally horizontal fingers, said fingers being positioned
immediately beneath said guide slots, a retaining spring biasing said
fingers into engagement with corresponding retaining elements of said
removable seat, said retaining member also having a disengagement handle
enabling the disengagement of said fingers from said corresponding
retaining elements of said removable seat.
12. A seat riser mounted in the floor of a automotive vehicle as set forth
in claim 11 wherein said locking means being attached exteriorly to lower
wall of said housing when said housing is in said vertical position.
13. A seat riser mounted in the floor of a automotive vehicle as set forth
in claim 11 wherein said arms also have laterally extending portions.
14. A seat riser mounted in the floor of a automotive vehicle as set forth
in claim 11 wherein said fingers also have downwardly sloped leading
edges, said leading edges allowing for substantial self-engagement of said
fingers with said corresponding retaining elements of said removable seat.
15. A seat riser mounted in the floor of a automotive vehicle as set forth
in claim 11 wherein said retaining means also includes a stop pin, said
stop pin limiting the movement of said returning member when said
retaining member is not engaged with said corresponding retaining elements
of said removable seat. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
The invention relates to an automotive vehicle having a removable seat
wholly supported by integrated seat risers. More particularly, the
invention relates to an automotive vehicle having at least one pair of
integrated seat risers mounted in the floor or bed of the vehicle. The
seat risers lie flush and concealed with the vehicle floor when in an
inoperative position and extend upwardly when in an operative position. To
facilitate an easier installation and removal of the vehicle seat, the
seat risers are capable of being locked into the operative position. Also
in order to increase installation ease, the seat risers are substantially
capable of self-engagement with an appropriately equipped seat assembly.
More large automotive vehicles, including station wagons, vans, passenger
trucks, utility and recreation vehicles, are purchased for their carrying
capacity. This carrying capacity includes not only the transportation of
passengers, but also the transportation of various sizes and amounts of
cargo. For this reason, most, if not all, of these vehicles come with some
type of removable or stow-away seat.
Typically, the removable seat assemblies of these vehicles are of the
self-standing type. Accordingly, each seat assembly has its own set of
frame mounted legs or risers. Once the seat assembly is positioned inside
the vehicle, the frame mounted risers are bolted or latched to the floor
of the vehicle.
The frame mounted risers do not interfere with either the driver or the
passengers once secured in the vehicle. The same is true once the seat
assembly is removed from the vehicle. However, during the installation and
subsequent removal of the seat assembly, frame mounted risers have
demonstrated several limitations. The two most significant of these
limitations being size and weight.
Typically, frame mounted risers have a height variance of eight to fourteen
inches. The increased seat height is advantageous in that it promotes
passenger comfort and visibility. However, this increase in assembly
height displays disadvantages, predominantly during the installation and
removal of the seat assembly in the limited confines of the vehicle's
cargo area. The list of casualties from the protruding frame mounted
risers includes scratched and marked up floors, doors, door wells and
sometimes even the legs of the person handling the assembly.
A second limitation of frame mounted riser is the resulting weight increase
to the seat assembly itself. During the installation or removal of a seat
assembly, the person performing the function must do so while in a bent
over position. This is again because of the limited confines of the
vehicle's cargo area. Any increase in weight thus compounds the difficulty
of installation and removal. Conversely, any decrease in seat assembly
weight aids the installation or removal procedure.
Prior art has shown vehicle seat support members being mounted in the floor
of a vehicle and being movable between a flush position and an upright
position. One such example in U.S. Pat. No. 251,737. The aforementioned
patent shows risers D movable between a concealed position in FIG. 1 and
an upright position, in FIG. 2, where the risers support a portion of a
vehicle seat folded out to form a bed. Unlike the present invention, the
risers of the previously mentioned patent do not support the entire seat
assembly.
Similarly, U.S. Pat. No. 4,784,425 discloses a riser type member 44 being
movable between a concealed position and an upwardly extending seat
locking position. However, no disclosure is made of using a rotatably
mounted frame supported riser for facilitating the full use of a vehicle
having a removable seat. Rather, the purpose of member 44 is to lock a
rotatable coach train seat in the rotated position.
It is the object of the present invention to eliminate both the height and
weight limitations of removable vehicle seat assemblies having frame
mounted seat risers. It is another object of the present invention to
encourage the full utilization of the vehicle.
Once the seat assembly is removed, the riser of the present invention lies
flush and concealed with the bed or floor of the vehicle's cargo area.
This is the inoperative position of the riser. From the inoperative
position, the riser of the present invention is capable of pivoting about
one axis and locking in an upwardly extending position. This is the
operatively position of the riser.
With the risers in the operative position, a seat assembly need only be
manipulated into the vehicle's cargo area and positioned on the risers.
The present invention is designed so that a seat assembly, having
corresponding engagement elements, will be able to substantially
self-engage the risers through guide slots in the upper surface of the
risers. To facilitate engagement, one positions the seat assembly's
engagement elements over the appropriate guide slots and pushes down on
the seat assembly. Once engaged, the seat assembly is entirely supported
by and through the risers.
Disengagement of the seat assembly from the risers is also accomplished in
two steps. First, sliding a spring biased engagement member backwards
disengaging the arms thereof and second, lifting the seat assembly and
engagement elements out of the riser slots.
With the incorporation of the seat risers into the vehicle floor, the
overall seat assembly is considerably reduced in height and weight.
With these subsequent reductions in height and weight, the seat assembly is
more easily moved and manipulated during installation and removal. The
ease in which one can readily install and remove the seat assembly thus
further encourages an operator to use the vehicle to its fullest extent.
Additional benefits and advantages of the present invention will become
apparent to those skilled in the art to which this invention relates from
the subsequent description of the preferred embodiments and the appended
claims, taken in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of an automotive vehicle, with its rear door
removed, incorporating and showing the seat risers of the present
invention in the inoperative position.
FIG. 2 is a perspective view of the vehicle of FIG. 1 showing a seat
assembly in exploded view from the seat risers of the present invention in
their operational position.
FIG. 3 is a generally exploded perspective view of a seat riser constructed
according to one embodiment of the present invention.
FIG. 4 is a sectional view generally taken along lines 4--4 in FIG. 3 of
the seat riser of the present invention including a sectional view of the
locking mechanism.
FIG. 5 is a sectional view generally taken along lines 5--5 of FIG. 3 of a
seat riser in the inoperative position and also showing a transverse
sectional view of the seat retaining mechanism and a phantom view of the
seat riser in the operative position for clarity.
FIG. 6 is a section view taken generally along line 6--6 in FIG. 3 of the
spring member of the seat retaining mechanism of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
Now with reference to the drawings, FIG. 1 shows an automotive utility
vehicle 10, in particular a van, with its rear door removed and
incorporating seat risers 12 according to the principals of the present
invention. When in an inoperative position 14, the seat riser 12 lies
flush and concealed with a floor 16 or bed of the vehicle 10. While the
drawings depict the seat risers of the present invention being
incorporated into the floor of a van, the invention is easily applied
other vehicles having removable seats. The invention may also be applied
outside the automotive industry in circumstances requiring the periodic
positioning of seats on some type of platform.
The seat riser 12 is pivotally mounted in the floor 16 of the vehicle 10 so
as to enable the seat riser 12 to rotate upwardly into a generally
vertical operative position 18, as seen in FIG. 2. When in the operative
position 18, the seat riser 12 readily engages a correspondingly equipped
removable seat assembly 20.
FIG. 3 generally displays a seat riser 12 in the operative position 18
according to one embodiment of the present invention. The floor 16 of the
vehicle 10 is designed so as to accept a recessed well 22. The recessed
well 22 has a flanged lip portion 24 along its upper rim 26. The lip
portion 24 nests in a correspondingly recessed portion 28 of the floor 16
so that the lip portion 24 will lie flush with the floor 16. The lip
portion 24 and the recessed portion 28 of floor 16 can be attached to one
another by various methods, one possible method being welding. In another
embodiment of the present invention, the recessed well 22 may be
integrally formed from the floor 16 and therefore no attachment between
the recessed well 22 and the floor 16 is necessary.
The recessed well 22 also contains a smaller, secondary well 30. During
rotation of the seat riser 12 from the inoperative position 14 to the
operative position 18, this secondary well 30 provides the clearance
needed for a locking mechanism 32 mounted as in the present embodiment of
the invention.
The recessed well 22 also has a wall portion defining a receiving hole 34
located near the secondary well 30. A reinforcement plate 36 is mounted
exteriorly of the receiving hole 34. As mounted, the reinforcement plate
36 further defines the receiving hole 34. The reinforcement plate 36 can
be integrally formed with a wall of the recessed well 22 or it can be
secured by welds 38 as shown in FIG. 4.
A generally box shaped housing structure 40 is pivotally attached to one
end of the recessed well 22 by pivot pins 42. The pivot pins 42 are each
secured in position by snap rings 44 on the interior side of the housing
structure 40. Being so attached, the entire housing structure 40 is
capable of rotating about its pivotal axis 41 from the horizontal
inoperative position 14 to the vertical operative position 18.
The housing structure 40, while being generally box shaped, has one open
wall. When in the inoperative position 14, the open wall is located on the
bottom of the housing structure 40, as seen in FIG. 5. Also when in the
inoperative position 14, the top wall 46 of the housing structure 40 lies
flush with the floor 16 as mentioned earlier. The top wall 46 (hereinafter
"flush wall") corresponds with both the floor 16 and the lip portion 24 of
the recessed well 22 to give the seat riser 12 its concealed appearance.
If the floor 16 of the vehicle 10 is covered with a mat or carpeting, the
flush wall 46 may also be covered with that material to further aid in the
concealment of the seat riser 12.
When the seat riser 12 is in the operative position 18, a portion of the
uppermost wall of the housing structure 40 defines two guide slots 48. The
guide slots 48 direct corresponding retaining elements 50 of the seat
assembly 20 into engagement with a retaining mechanism 52 mounted
internally of housing structure 40. Also when the seat riser 12 is in the
operative position 18, a portion of the lowermost wall 51 of the housing
structure 40 defines a generally hook shaped slot 54.
Once vertical, the seat riser 12 is capable of locking into the operative
position 18. This is accomplished by the employment of the locking
mechanism 32 previously mentioned.
When the seat riser 12 of the preferred embodiment is in the operative
position 18, the locking mechanism 32 is attached exteriorly of the
lowermost wall 51 of the housing structure 40. The locking mechanism 32 is
positioned so as to be above the secondary well 30, thus granting the
additional clearance required for the shown embodiment of the seat riser
12. The attachment structure 56 of the locking mechanism 32 may be secured
to the lowermost wall 51 of the housing structure 40 by seam welding, spot
welding, or various other attachment methods. The locking mechanism 32 is
also positioned so as to allow the insertion of a locking pin 58 into the
receiving hole 34 of the recessed well 22. A spring member 60 is
positioned and biased so as to encourage the insertion of the locking pin
58 into the receiving hole 34.
While the spring member 60 encourages the insertion of the locking pin 58
into the receiving hole 34, the locking mechanism 32 is also capable of
continual disengagement between the locking pin 58 and the receiving hole
34. This is accomplished, in part, by the attachment of a radially
extending handle 62 to the locking pin 58. The handle 62 is positioned on
the locking pin 58 so as to extend interiorly of the housing structure 40
through the slot 54 located in the lowermost wall 51 of the housing
structure 40. The slot 54 is oriented so that a hook portion 53 is located
most interiorly. By sliding the handle 62 along a shank portion 55 of the
slot 54 and into the hook portion 53, the biasing of the spring member 60
will cause the continual disengagement of the locking pin 58 from the
receiving hole 34.
The retaining mechanism 52 is mounted along the interior surface of the
flush wall 46 of the housing structure 40. The retaining mechanism 52 is
designed so as to substantially allow self-engagement of the retaining
elements 50 of the seat assembly 20 with a retaining finger 68 of a
retaining member 64.
The retaining member 64 of the retaining mechanism 52 extends in a
generally horizontal direction parallel to the interior surface of the
flush wall 46 of the housing structure 40. At each end of the retaining
member 64 an arm 66 extends upwardly. The arms 66 also extend in a lateral
direction, approximately at the mid-point of their vertical extension.
Both arms 66 terminate in a generally horizontally extending retaining
finger 68. Each retaining finger 68 has a downwardly sloping leading edge
70 to promote engagement with the retaining elements 50 of the seat
assembly 20.
The retaining member 64 is biased by a second spring member 72 toward the
downward sloping leading edge 70 of the retaining fingers 68. When the
retaining elements 50 of the seat assembly 20 are extended through the
guide slots 48 during installation of the seat assembly 20, the retaining
elements 50 come into contact with the downwardly sloping leading edges 70
of the retaining fingers 68 and force the retaining member 64 to move
against the biasing of the second spring member 72. Once the retaining
elements 50 are fully inserted, the second spring member 72 advances the
retaining member 64 in its biased direction and thus engages the retaining
fingers 68 with the retaining elements 50. While the generally downward
sloping leading edges 70 of the retaining fingers 68 encourage engagement
with the retaining elements 50, the generally horizontal lower edges 74 of
each retaining finger 68 discourage any disengagement.
The second spring member 72 is attached to the retaining member 64 by a
generally triangular shaped tongue 76. The tongue 76 is positioned
interiorly of one end of the second spring member 72 and is integrally
stamped from the body of the retaining member 64. At its opposite end, the
second spring member 72 is attached to a cover 78 by a second tongue 80.
The second tongue 80 is stamped integrally from the body of the cover 78
and extends interiorly of the other end of the second spring member 72.
One function of the cover 78, as mentioned earlier, is a point of
attachment for one end of the second spring member 72. A second function
of the cover 78 is safety in that it limits the exposure of the second
spring member 72 and thus prevents the accidental pinching of an
operator's fingers in the second spring member 72. The third function of
the cover 78, and probably the most important, is the attachment of the
entire retaining mechanism 52 to the interior surface of the flush wall 46
of the housing structure 40.
A disengagement handle 82 is positioned on the retaining member 64 to
enable the disengagement of the retaining fingers 68 from the retaining
elements 50 of the seat assembly 20. Using the disengagement handle 82,
the retaining member 64 is moved against its biasing. Once the lower edge
74 of each retaining finger 68 is no longer in engagement with a retaining
element 50, the seat assembly 20 is lifted from the seat riser 12 and the
retaining elements 50 exit the guide slots 48.
A stop pin 84 is provided along the interior of the flush wall 46 to limit
the movement of the retaining member 64 when the retaining elements 50 are
disengaged from the seat riser 12. The addition of the stop pin 84 permits
the second spring member 72 to be attached to both the retaining member 64
and the cover 78 through only the biasing of the second spring member 72
itself. Thus attached, the second spring member 72 is incapable of full
extension.
Located beneath each guide slot 48 is a load distribution plate 86, which,
as its name implies, helps to distribute the load of the seat assembly 20
evenly to the pivot pins 42. The load distribution plates 86 further
define the guide slots 48 and can be attached to the housing structure 40
by the various means mentioned earlier with regard to the reinforcement
plate 36.
When in the inoperative position 14, the seat riser 12 does not lock into
position. Rather, by weight and center of gravity of the seat riser 12
allow the seat riser 12 to remain substantially in the horizontal
inoperative position 14. A rubber strip 88 is positioned along the bottom
of the recessed well 22 so as to contact the lowermost edge of the housing
structure 40 when the seat riser 12 is in the inoperative position 14. The
rubber strip 88 reduces any excessive noise produced by the seat riser 12
while traveling in the inoperative position 14.
The recessed well 22 also provides a finger opening 90. The finger opening
90 permits the insertion of the operator's finger to engage a lifting lip
92 and rotate the seat riser 12 from the inoperative position 14 to the
operative position 18. The finger opening 90 and lifting lip 92 are best
seen in FIG. 3 and FIG. 5.
While the above description constitutes the preferred embodiments of the
present invention, it will be appreciated that the invention is
susceptible to modification, variation and change without departing from
the proper scope and fair meaning of the accompanying claims.
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